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Intelligent Algorithms for Cell Tracking and Image Segmentation


Affiliations
1 Information Technology Department, Al khawarizmi College, United Arab Emirates
2 University Technology Malaysia, Malaysia
3 College of Information Technology, UAE University, United Arab Emirates
 

Sensitive and accurate cell tracking system is important to cell motility studies. Recently, researchers have developed several methods for detecting and tracking the living cells. To improve the living cells tracking systems performance and accuracy, we focused on developing a novel technique for image processing. The algorithm we propose presents novel image segmentation and tracking system technique to incorporate the advantages of both Topological Alignments and snakes for more accurate tracking approach. The results demonstrate that the proposed algorithm achieves accurate tracking for detecting and analyzing the mobility of the living cells. The RMSE between the manual and the computed displacement was less than 12% on average. Where the Active Contour method gave a velocity RMSE of less than 11%, improves to less than 8% by using the novel Algorithm. We have achieved better tracking and detecting for the cells, also the ability of the system to improve the low contrast, under and over segmentation which is the most cell tracking challenge problems and responsible for lacking accuracy in cell tracking techniques.

Keywords

Cell Tracking, Segmentation Enhancement, Active Contour, Topological Alignments.
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  • Intelligent Algorithms for Cell Tracking and Image Segmentation

Abstract Views: 312  |  PDF Views: 162

Authors

Ashraf A. Aly
Information Technology Department, Al khawarizmi College, United Arab Emirates
Safaai Bin Deris
University Technology Malaysia, Malaysia
Nazar Zaki
College of Information Technology, UAE University, United Arab Emirates

Abstract


Sensitive and accurate cell tracking system is important to cell motility studies. Recently, researchers have developed several methods for detecting and tracking the living cells. To improve the living cells tracking systems performance and accuracy, we focused on developing a novel technique for image processing. The algorithm we propose presents novel image segmentation and tracking system technique to incorporate the advantages of both Topological Alignments and snakes for more accurate tracking approach. The results demonstrate that the proposed algorithm achieves accurate tracking for detecting and analyzing the mobility of the living cells. The RMSE between the manual and the computed displacement was less than 12% on average. Where the Active Contour method gave a velocity RMSE of less than 11%, improves to less than 8% by using the novel Algorithm. We have achieved better tracking and detecting for the cells, also the ability of the system to improve the low contrast, under and over segmentation which is the most cell tracking challenge problems and responsible for lacking accuracy in cell tracking techniques.

Keywords


Cell Tracking, Segmentation Enhancement, Active Contour, Topological Alignments.